BlinkyHaHa

Click on image for video. Switching rainbow/purple/red/rainbow done via OpenC2 commands.

Demo code for talk on IoT Safety. Blinky - the "Hello World" of IoT. HaHa - the "Hello World" of OpenC2.

It is made from (need to fill in) nerves phoenix example, openc2 lycan, blinkchain

Master branch is 'rainbow' config for 8x8 matrix (don't forget "export MIX_TARGET=rpi0")

String50 branch is for string of 50 leds (don't forget "export MIX_TARGET=rpi4")

Blinkt branch is for 8x1 Pimoroni Blinkt! pi-hat

Hardware config for string:

1. attach purple wire to rpi4 gpio pin 12 (BCM 18/PWM0)
   • see https://pinout.xyz/
2. attach blue wire to rpi4 gpio pin 14 Ground
3. Yellow wire should already be connected to strip middle connector
4. connect power to rpi4 and strip

Hello Phoenix

This example demonstrates a basic poncho project for deploying a Phoenix Framework-based application to a Nerves device. A "poncho project" is similar to an umbrella project except that it's actually multiple separate-but-related Elixir apps that use path dependencies instead of in_umbrella dependencies. You can read more about the motivations behind this concept on the embedded-elixir blog post about Poncho Projects.

Hardware

This example serves a Phoenix-based web page over the network. The steps below assume you are using a Raspberry Pi Zero, which allows you to connect a single USB cable to the port marked "USB" to get both network and serial console access to the device. By default, this example will use the virtual Ethernet interface provided by the USB cable, assign an IP address automatically, and make it discoverable using mDNS (Bonjour). For more information about how to configure the network settings for your environment, including WiFi settings, see the vintage_net documentation.

How to Use this Repository

1. Connect your target hardware to your host computer or network as described above

2. Prepare your Phoenix project to build JavaScript and CSS assets:

   # These steps only need to be done once.
   cd ui
   mix deps.get
   cd assets
   npm install

3. Build your assets and prepare them for deployment to the firmware:

   # Still in ui/assets directory from the prior step.
   # These steps need to be repeated when you change JS or CSS files.
   node node_modules/webpack/bin/webpack.js --mode production
   cd ../
   mix phx.digest

4. Change to the firmware app directory

   cd ../firmware

5. Specify your target and other environment variables as needed:

   export MIX_TARGET=rpi0
   # If you're using WiFi:
   # export NERVES_NETWORK_SSID=your_wifi_name
   # export NERVES_NETWORK_PSK=your_wifi_password

6. Get dependencies, build firmware, and burn it to an SD card:

   mix deps.get
   mix firmware
   mix firmware.burn

7. Insert the SD card into your target board and connect the USB cable or otherwise power it on

8. Wait for it to finish booting (5-10 seconds)

9. Open a browser window on your host computer to http://nerves.local/

10. You should see a "Welcome to Phoenix!" page

Learn More

• Official docs: https://hexdocs.pm/nerves/getting-started.html
• Official website: https://nerves-project.org/
• Discussion Slack elixir-lang #nerves (Invite)
• Source: https://github.com/nerves-project/nerves